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EP2642846A1 - A milking parlour for animals - Google Patents

A milking parlour for animals

Info

Publication number
EP2642846A1
EP2642846A1 EP11794873.7A EP11794873A EP2642846A1 EP 2642846 A1 EP2642846 A1 EP 2642846A1 EP 11794873 A EP11794873 A EP 11794873A EP 2642846 A1 EP2642846 A1 EP 2642846A1
Authority
EP
European Patent Office
Prior art keywords
milking
teat cup
teat
cup carrier
animal
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP11794873.7A
Other languages
German (de)
French (fr)
Other versions
EP2642846B1 (en
Inventor
Uzi Birk
Thomas Axelsson
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
DeLaval Holding AB
Original Assignee
DeLaval Holding AB
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by DeLaval Holding AB filed Critical DeLaval Holding AB
Publication of EP2642846A1 publication Critical patent/EP2642846A1/en
Application granted granted Critical
Publication of EP2642846B1 publication Critical patent/EP2642846B1/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01JMANUFACTURE OF DAIRY PRODUCTS
    • A01J5/00Milking machines or devices
    • A01J5/017Automatic attaching or detaching of clusters
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01JMANUFACTURE OF DAIRY PRODUCTS
    • A01J5/00Milking machines or devices
    • A01J5/003Movable milking machines
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01JMANUFACTURE OF DAIRY PRODUCTS
    • A01J5/00Milking machines or devices
    • A01J5/007Monitoring milking processes; Control or regulation of milking machines
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01JMANUFACTURE OF DAIRY PRODUCTS
    • A01J5/00Milking machines or devices
    • A01J5/017Automatic attaching or detaching of clusters
    • A01J5/0175Attaching of clusters
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01KANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
    • A01K1/00Housing animals; Equipment therefor
    • A01K1/12Milking stations
    • A01K1/126Carousels

Definitions

  • the present i nvention relates to a milking parlour for animals comprising at least one milking stall arranged to receive an animal in a predetermined milking position , teat cups arranged to be used in the milking stall , a teat cup carrier arranged to store the teat cups i n the milking stall when they are not used , and at least one robot arm provided with at least one gripping member arranged to grip a teat cup in the teat cup carrier and attach it on the teat of an animal in the milking stall .
  • the cows In a parallel rotary parlour, the cows normally enter a milking stall via an entrance at the outer edge portion of a rotary platform.
  • the cows stand in a milking position i n the milking stalls with their heads at an i nner edge portion of the platform and with their rear portions at an outer edge portion of the platform.
  • An operator, or a robot arm working on the outside of the platform, fetches teat cups i n a teat cup magazi ne and attaches them to the teats of the cow in the milking stall .
  • the teat cup magazine is usually arranged in a position i n the vicinity of the outer edge portion of the platform.
  • the cows have to walk past the teat cup magazine when they enter and when they leave the milking stalls.
  • the milking stalls must here be wider than otherwise needed in order to make room for the teat cup magazi nes, which restricts the numbers of milking stalls on the platform.
  • the teat cup magazi ne is arranged behind the rear legs of the cow in the milking stall , the teat cups have to be moved through the space between the rear legs of the cow when the teat cups are attached to the teats.
  • a teat cup will be polluted when it moves through the area below the rear portion of the cow.
  • WO 2008/1 1 8068 shows a parallel rotary parlour for automatic milking of cows.
  • a teat cup magazine is arranged on at least one side of the cows in the milking stalls.
  • a robot arm is arranged on the outside of a rotary platform. I n order to reach the teat cups in the teat cup magazine and attach them to the teats of the cow, the robot arm extends past the rear legs of the cow, grips the teat cups in the teat cup magazine, and attaches them on the teats of the animal .
  • the object of the present invention is to provide a teat cup carrier storing the teat cups in a storing area in a milking stall where they do not risk being damaged by the animal . Further objects are to store the teat cups in an area of the milking stall not used by other components and from which it is possible to move the teat cups to the teats of an animal in a safe and simple manner.
  • the teat cup carrier stores the teat cups in a storing area located at least partly in front of the front legs of the animal with respect to the direction of the animal when it stands in the predetermined milking position in the milking stall .
  • the animals On a rotary platform, the animals normally enter and leave a milking stall at a rear portion of the milking stall . Since the teat cup carrier stores the teat cups in a stori ng area in front of the front legs of the animal , the animal does not need to walk past the teat cup carrier and the teat cups when it enters and leaves the milking stall .
  • the animal does not risk comi ng in contact with the teat cup carrier and the teat cups in the storing area .
  • the teat cup carrier and the teat cups are thus stored in an area of the milking stall which is safe from damages caused by the animal .
  • the teat cup carrier and the teat cups can here be arranged in an area of the milking stall which is not used by other components.
  • the existence of the teat cup carrier and the teat cups does not require a larger milking stall .
  • the teat cup carrier stores the teat cups in a storing area from which it is relatively simple to move the teat cups to the teats of the animal .
  • the invention is not limited to the use on a rotary platform, even though the greatest advantages are achieved in such a system .
  • the teat cup carrier stores the teat cups in a stori ng area located su bstantially at a center vertical plane i n a longitudinal direction of the milking stall .
  • the teat cup carrier stores the teat cups in a completely central position in a transverse direction of the milking stall such that the center vertical plane extends through a center of the stori ng area.
  • Such a positioning of the stori ng area facilitates a motion of the teat cups between the front legs of the animals since the animal usually has a central position in the milking stall .
  • the teat cup carrier may store the teat cups in a storing area located on or vertically above a floor surface i n the milking stall .
  • the teat cup carrier and the teat cups are stored in a storing area outside the milking stall .
  • the teat cup carrier and the teat cups may be stored in front of the milking stall .
  • the milking parlour comprises a space-creating device having a design creating a free space between the front legs of an animal standing in a milking position in the milking stall .
  • the space-creating device may comprise a tunnel-shaped device having at least one opening at an end located behind the front legs of the animal . An animal entering the milking stall then puts the front legs on opposite sides of the centrally arranged tunnel-shaped device. It is possible to place the teat cup carrier and the teat cups in a storing area inside the tunnel-shaped device.
  • a part of the stori ng area may be located between the front legs of the animal .
  • the tunnel- shaped device may also have one opening at an end located i n front of the front legs of the animal .
  • the teat cup carrier may store the teat cups i n a storing area outside the tunnel-shaped device i n a front position of the milking stall .
  • the tunnel-shaped device may be constructed by a strength casing protecti ng the teat-cup carrier and the teat cups when they are in the stori ng area and/or when they move between the front legs of the animal .
  • the space-creati ng device may be an uneven surface arranged between the front legs of an animal standi ng i n a milking position in the milking stall .
  • Animals do not like to stand on uneven surfaces. I n this case, the animal puts the front legs on opposite sides of the uneven surface in the milking stall .
  • the robot arm is is arranged to simultaneously carry at least two teat cups.
  • the robot arm may, for example, comprise one, two or four gripping members.
  • a robot arm with four gripping members may grip four teat cups simultaneously in the teat cup carrier and move them to a position below the teats of the animal .
  • the teat cups may then be attached to a respective teat of the animal in proper order.
  • the robot arm may be arranged to move the gripping member through the space between the rear legs of the animal when it has to grip a teat cup in the teat cup carrier and attach it to a teat of the animal .
  • the robot arm may be mounted outside the platform in a position behind a rear portion of the animal in the milking stall . Since the teat cup carrier holds the teat cups in a gripping area in front of the rear legs of the animal , the robot arm does not need to move the teat cups through the space between the rear legs of the animal .
  • the robot arm and the gripping member may have a relatively small cross section area making it easy to move the robot arm through the space between the rear legs of the animal .
  • the teat cup carrier may comprise at least one rolling member allowing the teat cup carrier to roll along a floor surface in the milking stall between the storing area and the gripping area .
  • the teat cup carrier performs a motion in contact with the floor surface in the milking stall .
  • the teat cup carrier may be moved with a low friction along the floor surface by means of such rolling member.
  • the rolling means may for example be a number of suitably placed wheels.
  • the milking parlour comprises a first positioning means arranged to move the teat cup carrier from the storing area to a gripping area when the teat cups are to be attached to the teats of the animal .
  • the distance between the teats of the animal and the teat cups in the storing area is rather long .
  • it is suitable to move the teat cup carrier to a gripping area located closer to the teats before they are gripped and moved to the teats.
  • said gripping area is located between the front legs and the rear legs of the animal when it stands in the predetermined milking position i n the milking stall .
  • the teat cup carrier may here be moved through the space between the front legs of the animal to a position relatively close to the teats.
  • said first positioning means is arranged to displace the teat cup carrier between the stori ng area and the gripping area along a rectilinear path. A rectilinear motion may be performed with a relatively simple motion transmission mechanism.
  • the first positioning means may displace the teat cup carrier along the center vertical plane i n the longitudinal direction of the milking stall .
  • the front legs of an animal in a milking stall are usually placed on opposite sides of this center plane in the milking stall .
  • the first positioning means may comprise a power member connected to the teat cup carrier, and a control unit arranged to control the power member, such that it moves the teat cup carrier between the storing area and the gripping area at predetermined occasions.
  • the power member may for example be a hydraulic cylinder or a pneumatic cylinder.
  • the control unit may be a computer or the like comprising a suitable software for the activation of the power member.
  • the milking parlour comprises a second positioning means arranged to move the teat cup carrier from the stori ng area to a manual gripping area when the teat cups are to be manually attached to the teats of the animal .
  • the teat cup carrier is preferably moved to a position close to the position of an operator and close to the teats of the animal such that it is easy for the operator to grip the teat cups and attach them to the teats of the animal .
  • An extensi ble power member such as a hydraulic cylinder may be used for moving the teat cup carrier to the manual gripping area .
  • the milking parlour comprises a parallell rotary platform, i .e an annular platform where the milking stall is arranged to receive an animal in a predetermined milking position in the milking stall in which the head of the animal is in the vicinity of an inner edge portion of the annular platform , such that a longitudinal axis of the animal has a radial extension on the annular platform.
  • the robot arm or an operator, works from a position outside the outer edge portion of the platform when they attach the teat cups to the teats.
  • the milking parlour comprises a parallel rotary platform
  • the first positioning means comprises a stationary rail element arranged radially inside the platform havi ng a control surface defini ng the position of the teat cup carrier and a transmission mechanism arranged to transmit motions from the control surface of the rail element to the teat cup carrier.
  • the teat cups are usually attached and detached when the milking stall is in specific rotary positions.
  • the control surface of the rail element has a shape moving the teat cup carrier to the storing area or to the gripping area in these specific rotary positions.
  • the second positioning means may comprise an additional rail element movably arranged to a position i n which it replaces an ordinary rail element controlling the motion of the teat cup carrier.
  • the additional rail element and the ordinary rail element are stationary and a rail switching mechanism is used to connect the teat cup carrier to one of these rail elements dependi ng on which area the teat cup carrier is to be moved to.
  • FIG. 1 shows a view from the side of one of the milking stalls in Fig . 1 ,
  • FIG. 1 shows a part of a rotary platform with milking stalls comprising a movable teat cup carrier accordi ng to a second embodiment of the invention and ,
  • Fig . 1 shows a part of a parallel rotary platform 1 .
  • the rotary platform is annular and has an inner edge portion 1 a and an outer edge portion 1 b.
  • the platform 1 is provided with a plurality of fence elements 2 having an extension in a radial direction on the platform 1 .
  • Three milking stalls 3 on the platform 1 are visi ble in different rotary positions p-i , p 2 , P3.
  • Each milking stall 3 has an extension in a longitudinal direction between a front end portion defined by a part of the inner edge portion 1 a of the platform 1 and a rear end portion defined by a part of the outer edge portion 1 b of the platform 1 .
  • a center vertical plane 3a in the longitudinal direction of the respective milking stalls 3 is marked .
  • the center vertical plane 3a has an extension in a radial direction on the annular platform 1 and it divides the milking stalls 3 in a left half and a right half of the same size.
  • Each milking stall 3 has an extension i n a transverse direction between two adjacent fence elements 2.
  • Cows 4 are standing i n the respective milking stalls 3.
  • the positions of the front legs 4a and the rear legs 4b of the cows 4 are indicated when the cows 4 are standi ng i n a predetermined milking position i n the milking stalls 3.
  • a longitudinal axis of the cows 4 extends here in radial direction on the annular platform 1 and thus in a corresponding direction as the center vertical plane 3a.
  • the heads of the cows 1 are i n the vicinity of the inner edge portion 1 a of the platform 1 and the rear end portions of the cows 4 are in the vicinity of the outer edge portion 1 b of the platform 1 .
  • the cows 4 are here milked in a so called parallel rotary parlour.
  • Each milking stall 3 comprises a movably arranged feeding trough 6.
  • the feeding troughs 6 define the position of the front portions of the cows 4 in the milking stall 3.
  • a rump rail 7 is arranged at a distance above the radial outer edge portion 1 b of the platform 1 .
  • the rump rail 7 defines the position of the rear portions of the cows 4 i n the milking stalls 3.
  • Each milking stall 3 comprises a movably arranged teat cup carrier 8.
  • Each teat cup carrier 8 stores four teat cups 9 i n a storing area A when they not are used in the milking stall 3.
  • the storing area A is located in front of the front legs 4a of the cow 4 when it is standing in a milking position in the milking stall 3.
  • the storing area A has a substantially center position in a transverse direction of the milking stall 3.
  • the center vertical plane 3a extends centrally through the storing area A i n the respective milking stalls 3.
  • Each teat cup carrier 8 is movably arranged in the milking stall 3 between the stori ng area A and a gripping area A 2 in which it is possible to grip the teat cups 9 and attach them to the teats of the cow 4 in the milking stall 3.
  • the gripping area A 2 is located between the front legs 4a and the rear legs 4b of the cow 4.
  • the gripping area A 2 also has a center position in a transverse direction of the milking stall 3.
  • the center vertical plane 3a also extends centrally through the gripping area A 2 .
  • Each teat cup carrier 8 is connected to a rod element 10 provided with a roller 10a at an end portion .
  • the roller 10a is in contact with a control surface of a rail element 1 1 .
  • the rail element 1 1 is mounted i n a fixed position on the i nside of the inner edge portion 1 a of the platform 1 .
  • a not visi ble spring member or the like may act on the rod element 10 such that the roller 10a is held in continuous contact with the control surface of the rail element 1 1 .
  • Each teat cup carrier 8 is movably arranged between the storing area A and the gripping area A 2 by means of this mechanical transmission when the platform 1 rotates.
  • a robot arm 1 3 is adapted to fetch the teat cups 9 i n the teat cup carrier 8 and attach them to the teats of the cow 4.
  • the teat cups 9 are held in parking positions in the teat cup carrier 8 along a curved path .
  • the robot arm 13 comprises four gripping members 13a. Each gripping member 13a is arranged to grip one of the teat cups 9 in the teat cup carrier 8.
  • the gripping members 13a are arranged on the robot arm along a corresponding curved path as the teat cups 9 in the teat cup carrier 8. Such an arrangement of the gripping members 13a makes it possible to grip the teat cups 9 simultaneously i n the teat cup carrier 8.
  • a camera 13b is arranged on the robot arm 13 in the vicinity of the gripping members 13a.
  • Fig . 2 shows the robot arm 13 from the side.
  • the robot arm 1 3 comprises a first positioning element 13c arranged to adjust the position of the gripping members 13a in a vertical direction , a second positioning element 13d arranged to adjust the position of the gripping member 13a along a straight line path in a horizontal plane, and a third positioning element 13e arranged to adjust the position of the gripping member 13a in a horizontal plane by means of a pivoting motion .
  • the robot arm 1 3 comprises a first positioning element 13c arranged to adjust the position of the gripping members 13a in a vertical direction , a second positioning element 13d arranged to adjust the position of the gripping member 13a along a straight line path in a horizontal plane, and a third positioning element 13e arranged to adjust the position of the gripping member 13a in a horizontal plane by means of a pivoting motion .
  • the robot arm 1 3 comprises a first positioning element 13c arranged to adjust the position of the gripping members 13a in a vertical direction
  • the rail member 12 has a curved extension su bstantially vertically above the radially outer edge portion 1 b of the 1 platform 1 .
  • the suspension device 13g comprises rollers 13h or the like by which the robot arm 13 is movably arranged along the rail member 12.
  • Each teat cup carrier 8 is provided with a number of rolling members 8a making it possible for the teat cup carrier 8 to roll along the floor surface in the milking stall 3 between the stori ng area A and the gripping area A 2 .
  • a tunnel-shaped device 14 is arranged in each milking stall 3.
  • Each tunnel-shaped device 14 is arranged i n the vicinity of the front legs 4a of a cow 4 standing in a milking position in the milking stall 3.
  • the tunnel-shaped devices 14 have a center position in the transverse direction of the milking stall 3. Thus, the center vertical plane 3a in the milking stall extends through the tunnel-shaped device 14.
  • the tunnel-shaped devices 14 have a design creating a free space between the front legs 4a of a cow 4.
  • the tunnel-shaped device 14 is constructed by a strength casing .
  • the tunnel-shaped device 14 has an opening at a first end 14a located in front of the front legs 4a of the cow 4.
  • the tunnel-shaped device 14 also has an opening at a second end 14b located behind the front legs 4a of the cow 4.
  • the tunnel- shaped device 14 has here a length such that it encloses the teat cup carrier 8 and the teat cups 9 when they are in the storing area
  • a cow 4 to be milked enters a milking stall 3 at a first rotation position p-
  • the existence of the centrally positioned tunnel-shaped device 14 results in the cow 4 having to place the front legs 4a on opposite sides of the tunnel- shaped device 14 in the milking stall 3.
  • the feeding trough 6 is adjusted to a position such that it moves the cow 4 to a predetermined milking position in the milking stall 3 in which an end portion of the cow 4 comes in contact with the rump rail 7.
  • the movably arranged feeding trough 6 defines the milking position of the cow 4 in the longitudinal direction of the milking stall 3.
  • the roller 10a of the rod element 10 rolls continuously in contact with the control surface of the rail element 11.
  • the control surface of the rail element 11 has a curved part displacing the rod element 10 and the teat cup carrier 8 along the center vertical plane 3a of the milking stall.
  • the tunnel-shaped device 14 secures a free space between the front legs 4a of the cow 4 when the teat cup carrier 8 is displaced from the storing area A to the gripping area A 2 .
  • the robot arm 13 is located in a resting position radially outside the outer edge portion 1b of the platform 1.
  • the first positioning element 13c of the robot arm 13 may be activated in order to adjust the position of the gripping member 13a to a suitable vertical level above the floor surface of the platform 1.
  • the second positioning element 13d then moves the gripping members 10a along a straight line path through the space between the rear legs of the cow 4 and towards the teat cups 9 held by the teat cup carrier 8 in the gripping area A 2 .
  • the camera 10b detects the positions of the teat cups 9.
  • the above described arrangement of the four gripping devices 13a makes it possible to grip all teat cups 9 simultaneously.
  • the third positioning element 13e may also be used to perform a pivoting motion of the gripping member 13a during the gripping motion of the teat cups 9 i n the teat cup carrier 8.
  • the robot arm 13 is then activated in a manner such that the gripping member 13a moves the teat cups 9 to a position below the udder of the cow 4.
  • the camera 13b detects the positions of the teats of the cow 4 and the robot arm 13 attaches the teat cups 9 in proper order to teat of the cow 4.
  • the whole robot arm 13 can be moved as a unit along the curved rail member 1 1 with the same velocity as the platform 1 . Thereby, it is possible to avoid mutual motions between the robot arm 13 and the cow 4 on the rotary platform 1 .
  • the robot arm 13 When all teat cups 9 have been attached to the teats of the cow 4, the robot arm 13 is retracted to the resti ng position outside the radial outer edge portion 13b of the platform 1 . I n this case, the robot arm 13 uses the space between the rear legs of the cow 4 for gripping the teat cups 9 in the gripping area A 2 .
  • the gripping members 13a and the robot arm 13 may be given a relatively small cross section area . Thereby, the risk that the robot arm 1 3 comes in contact with the rear legs 4b of the cow 4 when it moves through the space between the rear legs 4b of the cow 4 is relatively small .
  • the milking process of the cow 4 starts when the milking stall 3 reaches the third rotation position p 3 .
  • the teat cup carrier 8 is maintai ned i n the gripping area A 2 during the whole milking process.
  • the teat cup carrier 8 is located relatively close to the teats of the cow 4 in the gripping area A 2 .
  • Such a positioning of the teat cup carrier 8 results in a short pull out length of the milk tubes and the pulse tubes of the teat cups 9 when they are attached to the teats of the cow 4. Thereby, the risk that the tu bes become entangled with each other duri ng the milking process and a following removing process is relatively low.
  • a schematically disclosed removing device 15 is activated .
  • the removing device 15 is here placed on the floor surface in a front portion of the milking stall 3 in the vicinity of the inner edge portion 1 a of the platform 1 .
  • the milk tubes are arranged at a relatively low constant level above the floor surface.
  • Such an arrangement of the milk tubes results in a uniform milk flow from the teat cups 9, via the milk tubes, to a not visi ble milk contai ner. It is of course possible to arrange the removi ng device 15 in other positions on the platform 1 .
  • the removing device 15 provides individual pulling forces in the respective milk tubes and the pulse tubes when the milk flow to the respective teats cups 9 ceases.
  • the pulling force in the milk tubes removes the teat cups 9 from the teats of the cow 4 and pulls them back to a parking position i n the teat cup carrier 8.
  • the teat cup carrier 8 is displaced back to the stori ng area A inside the tunnel-shaped device 14 by means of the control surface of the rail element 1 1 and the rod element 10.
  • the milking stall 3 reaches the final rotary position and the cow 4 leaves the milking stall 3.
  • FIG. 3 shows an alternative embodiment comprising a movably arranged additional rail element 1 1 a.
  • the additional rail element 1 1 a is movably arranged between a resting position which may be at a higher level than the level of the ordinary rail element 1 1 and an active position in front of a part of the ordinary rail element 1 1 .
  • a schematically shown manual control unit 20 of the additional rail element is arranged outside the outer edge portion 1 b of the platform 1 .
  • the manual control unit 20 is arranged to be used by an operator standing on the outside of the platform 1 .
  • the manual control unit 20 comprises a first button 20a for positioning the additional rail element 1 1 a in the resting position and a second button 20b for positioning the additional rail element 1 1 a i n the active position .
  • the manual control unit 20 is connected to a schematically disclosed lifting mechanism 21 , able to move the additional rail element 1 1 a in a vertical direction between the resting position and the active position .
  • an operator may directly grip the additional rail element 1 1 a and move it between said positions.
  • a simple mechanical mechanism may be used for movi ng the additional rail element 1 1 a between said positions.
  • the additional rail element 1 1 a is moved down from the resting position to the active position in front of the ordi nary rail element 1 1 with respect to the position of the roller 1 0a.
  • the roller 10a of the rod element 10 rolls in contact with the ordinary rail element 1 1 i n the first rotary position p of the milking stall 3.
  • the roller 10a rolls over from the ordinary rail element 1 1 to the additional rail element 1 1 a when the milking stall 3 approaches the second rotary position p 2 .
  • the additional rail element 1 1 a has a control surface with a shape such that it displaces the rod element 10 and the teat cup carrier 8 along the center vertical plane 3a of the milking stall through the tunnel-shaped device 14 and to a manual gripping area A 3 .
  • the manual gripping area A 3 is located closer to the outer edge portion 1 b of the platform 1 than the ordi nary gripping area A 2 . It is in this case easy for an operator to grip the teat cups i n the teat cup carrier 8 and attach them to the teats of the cow 4 in the milking stall 3.
  • the additional rail element 1 1 a has a shape such that it displaces the rod element 10 and the teat cup carrier 8 along the center vertical plane 3a of the milking stall 3 from the manual gripping area A 3 to the ordi nary gripping area A 2 .
  • the roller 10a rolls back from the additional rail element 1 1 a to the ordi nary rail element 1 1 when the milking stall 3 approaches the second rotary position p 3 .
  • the teat cup carrier 8 is maintained i n the gripping area A 2 during the whole milking process. As soon as the milking process of the cow 4 has finished , the teat cups 9 are removed from the cow 4.
  • the teat cup carrier 8 When all teat cups 8 have been retracted to their parking positions in the teat cup carrier 8, the teat cup carrier 8 is displaced back to the stori ng area A inside the tunnel-shaped device 14 by means of the control surface of the rail element 1 1 and the rod element 10.
  • the milking stall 3 reaches the final rotary position and the cow 4 leaves the milking stall 3. It is of course possible to instead maintain the teat cup carrier 8 in the manual gripping area A 3 during the milking process.
  • a rail switching mechanism may be used which in a first position guides the roller 10a to the ordinary rail element 1 1 and in a second position guides the roller 10a to the alternative rail element.
  • An operator may set the rail switching mechanism i n a selected one of these positions by means of a simple mechanical mechanism or a control unit.
  • Fig . 4 shows a further alternative embodiment of the invention.
  • a teat cup carrier 8 is moved between a storing area A and a gripping area A 2 by means of an extensible power member 16.
  • the extensible power members 16 may be hydraulic or pneumatic cylinders.
  • a control unit 1 7 is used to control the activation of the power members 16.
  • An uneven surface is arranged between the front legs 4a of the cows 4 in the respective milking stalls 3. I n this case, the uneven surface is formed by a number of elongated ri b elements 18 arranged i n parallel at a distance from each other.
  • the uneven surface comprises an upper surface portion defined by the ri b elements 18 and a lower surface defined by the ordinary floor surface in the milking stalls 3.
  • Each uneven surface has a center position i n the transverse direction of the milking stalls 3.
  • the center vertical planes 3a i n the milking stalls 3 extend through the uneven surfaces.
  • Cows 4 do not like to stand on uneven surfaces.
  • the uneven surfaces create free spaces between the front legs 4a of the cows 4 i n the milking stalls 3.
  • a guiding track 19 is arranged on the floor surface in each milking stall 3.
  • the guiding track 19 may be formed i n a depression in the floor surface or on a level above the floor surface i n the milking stalls 3.
  • the guiding tracks 19 define the direction of motion of the teat cup carriers 8 when they are moved between the storing area A and the gripping area A 2 in the milking stalls 3.
  • Each guiding track 19 extends centrally through the uneven surface i n the milking stall 3 in a space between two adjacent rib elements 18.
  • a cow 4 to be milked enters a milking stall 3 at a first rotation position p-
  • the teat cup carrier 8 is in the stori ng area A in the vicinity of the inner edge portion 1 a of the platform 1 . Since the teat cup carrier 8 is in this position of the milking stall 3 there is no risk that the cow comes in contact with or stamps on the teat cup carrier 8 and the teat cups 9.
  • the feeding trough 6 moves the cow 4 to the predetermined milking position i n the milking stall 3 in which the end portion of the cow 4 is in contact with the rump rail 7.
  • the cow 4 puts the front legs 4a on opposite sides of the uneven surface defi ned by the ri b elements 18 such that a free space is created between the front legs 4a of the cow 4.
  • the control unit 1 7 activates the power member 16 such that it displaces the teat cup carrier 8 in a longitudinal direction in the milking stall 3 along the guiding rail 19.
  • the power member 16 displaces the teat cup carrier 8 from the stori ng area A to the gripping area A 2 via the free space between the front legs 4a of the cow 4.
  • the control unit 1 7 activates the robot arm 13 when the milking stall 3 enters the second rotary position p 2 .
  • the robot arm 13 moves the gripping member 13a towards the teat cups 9 i n the teat cup carrier 8 via the space between the rear legs 4b of the cow 4.
  • the gripping device 13a grips all teat cups 9 simultaneously and moves them to a position below the udder of the cow 4 and attaches them in proper order to the teats of the cow 4.
  • the robot arm 13 is then retracted to the resting position outside the radial outer edge portion 13b of the platform 1 .
  • the control unit 1 7 maintains the teat cup carrier 8 in the gripping area A 2 during the whole milking process. As soon as the milking process of the cow 4 has finished , a non-shown removing device removes the teat cup 9 from the teats and pulls them back to a respective parking position i n the teat cup carrier 8. Before the milking stall reaches a final rotary position where the cow 4 leaves the milking stall 3, the control unit 1 7 activates the power member 16 such that it moves the teat cup carrier 8 back to storing area A-
  • the storing area A is close to the inner edge portion 1 a of the platform there is no risk that the cow 4 comes in contact with or steps on the teat cup carrier 8 and the teat cups 9 when the cow leaves the milking stall 3. It is also possi ble to use the extensible power member 16 for moving the teat cup carrier 8 to a manual gripping area A 3 . It is also possible to use the one of the above mentioned positioning mechanisms for movi ng the teat cup carrier to a service area on the platform. The teat cup carrier 8 may be moved to the service area during occasions when the platform 1 is free from cows 4.
  • Such a service area may be located close to the outer edge portion 1 b of the platform such that the teat cups 9 are easy reachable for an operator standing on the outside the platform 1 .
  • the teat cups 9 may be placed on a cleaning device for performing a cleaning process of the milking system .
  • the milking parlour is not necessarily a rotary milking parlour, but may be any type of milking parlour, incl uding a so called milking robot (AMS).
  • AMS milking robot
  • An operator or a robot arm of any ki nd may be used for attachi ng the teat cups to the teats of the cow.
  • the teat cups can be gripped and attached by the gripper individually, in pairs, or all four at once.
  • the space-creating devices may take other forms than the ones described here. It is further not necessary for the platform to comprise fencing between the stalls, feeding troughs and/or rump rails.

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  • Life Sciences & Earth Sciences (AREA)
  • Environmental Sciences (AREA)
  • Animal Husbandry (AREA)
  • Zoology (AREA)
  • Biodiversity & Conservation Biology (AREA)
  • External Artificial Organs (AREA)
  • Catching Or Destruction (AREA)
  • Feeding And Watering For Cattle Raising And Animal Husbandry (AREA)

Abstract

The present invention relates to a milking parlour for animals comprising at least one milking stall (3) arranged to receive an animal in a predetermined milking position, teat cups arranged to be used in the milking stall, a teat cup carrier (8) arranged to store the teat cups (9) i n the milking stall (3) when they are not used, and at least one robot arm (13) provided with at least one gripping member (13a) arranged to grip a teat cup (9) in the teat cup carrier (8) and attach it on the teat of an animal (4) in the milking stall (3). The teat cup carrier (8) stores the teat cups (9) in a storing area located at least partly in front of the front legs (4a) of the animal (4) with respect to the direction of the animal when it stands i n the predetermined milking position in the milking stall.

Description

A milking parlou r for animals
BACKGROU ND OF THE I NVENTION AND PRIOR ART The present i nvention relates to a milking parlour for animals comprising at least one milking stall arranged to receive an animal in a predetermined milking position , teat cups arranged to be used in the milking stall , a teat cup carrier arranged to store the teat cups i n the milking stall when they are not used , and and at least one robot arm provided with at least one gripping member arranged to grip a teat cup in the teat cup carrier and attach it on the teat of an animal in the milking stall .
In a parallel rotary parlour, the cows normally enter a milking stall via an entrance at the outer edge portion of a rotary platform. The cows stand in a milking position i n the milking stalls with their heads at an i nner edge portion of the platform and with their rear portions at an outer edge portion of the platform. An operator, or a robot arm , working on the outside of the platform, fetches teat cups i n a teat cup magazi ne and attaches them to the teats of the cow in the milking stall . The teat cup magazine is usually arranged in a position i n the vicinity of the outer edge portion of the platform. If the teat cup magazine is arranged at the side of the milking stall near the outer edge of the platform , the cows have to walk past the teat cup magazine when they enter and when they leave the milking stalls. The milking stalls must here be wider than otherwise needed in order to make room for the teat cup magazi nes, which restricts the numbers of milking stalls on the platform. I n case the teat cup magazi ne is arranged behind the rear legs of the cow in the milking stall , the teat cups have to be moved through the space between the rear legs of the cow when the teat cups are attached to the teats. There is here a risk that a teat cup will be polluted when it moves through the area below the rear portion of the cow. There is also a risk that the cow stamps on the milk tu bes with the rear legs during the milking process.
WO 2008/1 1 8068 shows a parallel rotary parlour for automatic milking of cows. A teat cup magazine is arranged on at least one side of the cows in the milking stalls. A robot arm is arranged on the outside of a rotary platform. I n order to reach the teat cups in the teat cup magazine and attach them to the teats of the cow, the robot arm extends past the rear legs of the cow, grips the teat cups in the teat cup magazine, and attaches them on the teats of the animal .
SUMMARY OF THE I NVENTION The object of the present invention is to provide a teat cup carrier storing the teat cups in a storing area in a milking stall where they do not risk being damaged by the animal . Further objects are to store the teat cups in an area of the milking stall not used by other components and from which it is possible to move the teat cups to the teats of an animal in a safe and simple manner.
These objects are obtai ned by the milking parlour i nitially defined which is characterized in that that the teat cup carrier stores the teat cups in a storing area located at least partly in front of the front legs of the animal with respect to the direction of the animal when it stands in the predetermined milking position in the milking stall . On a rotary platform, the animals normally enter and leave a milking stall at a rear portion of the milking stall . Since the teat cup carrier stores the teat cups in a stori ng area in front of the front legs of the animal , the animal does not need to walk past the teat cup carrier and the teat cups when it enters and leaves the milking stall . Thereby, the animal does not risk comi ng in contact with the teat cup carrier and the teat cups in the storing area . The teat cup carrier and the teat cups are thus stored in an area of the milking stall which is safe from damages caused by the animal . Further, the teat cup carrier and the teat cups can here be arranged in an area of the milking stall which is not used by other components. Thus, the existence of the teat cup carrier and the teat cups does not require a larger milking stall . Furthermore, the teat cup carrier stores the teat cups in a storing area from which it is relatively simple to move the teat cups to the teats of the animal . There is su bstantially no risk that the teat cups will be polluted when they are moved to the teats, since the teat cups are not moved to the teats via an area below a rear portion of the cows. The invention is not limited to the use on a rotary platform, even though the greatest advantages are achieved in such a system .
Accordi ng to an embodiment of the invention , the teat cup carrier stores the teat cups in a stori ng area located su bstantially at a center vertical plane i n a longitudinal direction of the milking stall . Preferably, the teat cup carrier stores the teat cups in a completely central position in a transverse direction of the milking stall such that the center vertical plane extends through a center of the stori ng area. Such a positioning of the stori ng area facilitates a motion of the teat cups between the front legs of the animals since the animal usually has a central position in the milking stall . The teat cup carrier may store the teat cups in a storing area located on or vertically above a floor surface i n the milking stall . Alternatively, the teat cup carrier and the teat cups are stored in a storing area outside the milking stall . In this case, the teat cup carrier and the teat cups may be stored in front of the milking stall .
Accordi ng to a further embodiment of the i nvention, the milking parlour comprises a space-creating device having a design creating a free space between the front legs of an animal standing in a milking position in the milking stall . In order to secure a free space for the teat cup carrier when it moves between the front legs of the animal , it is many times suitable to use a space- creating device. The space-creating device may comprise a tunnel-shaped device having at least one opening at an end located behind the front legs of the animal . An animal entering the milking stall then puts the front legs on opposite sides of the centrally arranged tunnel-shaped device. It is possible to place the teat cup carrier and the teat cups in a storing area inside the tunnel-shaped device. I n this case, a part of the stori ng area may be located between the front legs of the animal . The tunnel- shaped device may also have one opening at an end located i n front of the front legs of the animal . I n this case, the teat cup carrier may store the teat cups i n a storing area outside the tunnel-shaped device i n a front position of the milking stall . The tunnel-shaped device may be constructed by a strength casing protecti ng the teat-cup carrier and the teat cups when they are in the stori ng area and/or when they move between the front legs of the animal . Alternatively, the space-creati ng device may be an uneven surface arranged between the front legs of an animal standi ng i n a milking position in the milking stall . Animals do not like to stand on uneven surfaces. I n this case, the animal puts the front legs on opposite sides of the uneven surface in the milking stall . Accordi ng to a further embodiment of the invention, the robot arm is is arranged to simultaneously carry at least two teat cups. The robot arm may, for example, comprise one, two or four gripping members. A robot arm with four gripping members may grip four teat cups simultaneously in the teat cup carrier and move them to a position below the teats of the animal . The teat cups may then be attached to a respective teat of the animal in proper order. The robot arm may be arranged to move the gripping member through the space between the rear legs of the animal when it has to grip a teat cup in the teat cup carrier and attach it to a teat of the animal . In this case, the robot arm may be mounted outside the platform in a position behind a rear portion of the animal in the milking stall . Since the teat cup carrier holds the teat cups in a gripping area in front of the rear legs of the animal , the robot arm does not need to move the teat cups through the space between the rear legs of the animal . The robot arm and the gripping member may have a relatively small cross section area making it easy to move the robot arm through the space between the rear legs of the animal .
Accordi ng to a further embodiment of the invention , the teat cup carrier may comprise at least one rolling member allowing the teat cup carrier to roll along a floor surface in the milking stall between the storing area and the gripping area . In order to provide a stable motion of the teat cup carrier, it is suitable that the teat cup carrier performs a motion in contact with the floor surface in the milking stall . The teat cup carrier may be moved with a low friction along the floor surface by means of such rolling member. The rolling means may for example be a number of suitably placed wheels.
Accordi ng to a preferred embodiment of the invention , the milking parlour comprises a first positioning means arranged to move the teat cup carrier from the storing area to a gripping area when the teat cups are to be attached to the teats of the animal . The distance between the teats of the animal and the teat cups in the storing area is rather long . In order to facilitate the attachment process of the teat cups and reduce the length of the milk tubes and the pulse tubes connected to the teat cups, it is suitable to move the teat cup carrier to a gripping area located closer to the teats before they are gripped and moved to the teats. Preferably, said gripping area is located between the front legs and the rear legs of the animal when it stands in the predetermined milking position i n the milking stall . The teat cup carrier may here be moved through the space between the front legs of the animal to a position relatively close to the teats. Accordi ng to a further embodiment of the invention , said first positioning means is arranged to displace the teat cup carrier between the stori ng area and the gripping area along a rectilinear path. A rectilinear motion may be performed with a relatively simple motion transmission mechanism. The first positioning means may displace the teat cup carrier along the center vertical plane i n the longitudinal direction of the milking stall . The front legs of an animal in a milking stall are usually placed on opposite sides of this center plane in the milking stall . Thus, there is usually a free space between the front legs of an animal in this center position of the milking stall which can be used when the teat cup carrier is moved from the storing area to the gripping area. The first positioning means may comprise a power member connected to the teat cup carrier, and a control unit arranged to control the power member, such that it moves the teat cup carrier between the storing area and the gripping area at predetermined occasions. The power member may for example be a hydraulic cylinder or a pneumatic cylinder. The control unit may be a computer or the like comprising a suitable software for the activation of the power member. Accordi ng to a further embodiment of the i nvention , the milking parlour comprises a second positioning means arranged to move the teat cup carrier from the stori ng area to a manual gripping area when the teat cups are to be manually attached to the teats of the animal . In this case, the teat cup carrier is preferably moved to a position close to the position of an operator and close to the teats of the animal such that it is easy for the operator to grip the teat cups and attach them to the teats of the animal . An extensi ble power member such as a hydraulic cylinder may be used for moving the teat cup carrier to the manual gripping area .
Accordi ng to a further embodiment of the i nvention, the milking parlour comprises a parallell rotary platform, i .e an annular platform where the milking stall is arranged to receive an animal in a predetermined milking position in the milking stall in which the head of the animal is in the vicinity of an inner edge portion of the annular platform , such that a longitudinal axis of the animal has a radial extension on the annular platform. In this case, the robot arm, or an operator, works from a position outside the outer edge portion of the platform when they attach the teat cups to the teats. Accordi ng to a preferred embodiment of the invention , the milking parlour comprises a parallel rotary platform , and the first positioning means comprises a stationary rail element arranged radially inside the platform havi ng a control surface defini ng the position of the teat cup carrier and a transmission mechanism arranged to transmit motions from the control surface of the rail element to the teat cup carrier. The teat cups are usually attached and detached when the milking stall is in specific rotary positions. The control surface of the rail element has a shape moving the teat cup carrier to the storing area or to the gripping area in these specific rotary positions. I n this case, the second positioning means may comprise an additional rail element movably arranged to a position i n which it replaces an ordinary rail element controlling the motion of the teat cup carrier. Alternatively, the additional rail element and the ordinary rail element are stationary and a rail switching mechanism is used to connect the teat cup carrier to one of these rail elements dependi ng on which area the teat cup carrier is to be moved to.
BRI EF DESCRI PTI ON OF TH E DRAWI NGS
In the following , preferred embodiments of the invention are described by examples and with references to the attached drawings, in which : shows a part of a rotary platform with milking stalls comprising a movable teat cup carrier accordi ng to a first embodiment of the invention,
shows a view from the side of one of the milking stalls in Fig . 1 ,
shows a part of a rotary platform with milking stalls comprising a movable teat cup carrier accordi ng to a second embodiment of the invention and ,
shows a part of a rotary platform with milking stalls comprising a movable teat cup carrier according to a third embodiment of the invention . BRI EF DESCRI PTION OF PREFERRED EMBODI MENTS OF THE I NVENTION
Fig . 1 shows a part of a parallel rotary platform 1 . The rotary platform is annular and has an inner edge portion 1 a and an outer edge portion 1 b. The platform 1 is provided with a plurality of fence elements 2 having an extension in a radial direction on the platform 1 . Three milking stalls 3 on the platform 1 are visi ble in different rotary positions p-i , p2, P3. Each milking stall 3 has an extension in a longitudinal direction between a front end portion defined by a part of the inner edge portion 1 a of the platform 1 and a rear end portion defined by a part of the outer edge portion 1 b of the platform 1 . A center vertical plane 3a in the longitudinal direction of the respective milking stalls 3 is marked . The center vertical plane 3a has an extension in a radial direction on the annular platform 1 and it divides the milking stalls 3 in a left half and a right half of the same size. Each milking stall 3 has an extension i n a transverse direction between two adjacent fence elements 2.
Cows 4 are standing i n the respective milking stalls 3. The positions of the front legs 4a and the rear legs 4b of the cows 4 are indicated when the cows 4 are standi ng i n a predetermined milking position i n the milking stalls 3. A longitudinal axis of the cows 4 extends here in radial direction on the annular platform 1 and thus in a corresponding direction as the center vertical plane 3a. The heads of the cows 1 are i n the vicinity of the inner edge portion 1 a of the platform 1 and the rear end portions of the cows 4 are in the vicinity of the outer edge portion 1 b of the platform 1 . The cows 4 are here milked in a so called parallel rotary parlour. Each milking stall 3 comprises a movably arranged feeding trough 6. The feeding troughs 6 define the position of the front portions of the cows 4 in the milking stall 3. A rump rail 7 is arranged at a distance above the radial outer edge portion 1 b of the platform 1 . The rump rail 7 defines the position of the rear portions of the cows 4 i n the milking stalls 3. Each milking stall 3 comprises a movably arranged teat cup carrier 8. Each teat cup carrier 8 stores four teat cups 9 i n a storing area A when they not are used in the milking stall 3. The storing area A is located in front of the front legs 4a of the cow 4 when it is standing in a milking position in the milking stall 3. The storing area A has a substantially center position in a transverse direction of the milking stall 3. Thus, the center vertical plane 3a extends centrally through the storing area A i n the respective milking stalls 3. Each teat cup carrier 8 is movably arranged in the milking stall 3 between the stori ng area A and a gripping area A2 in which it is possible to grip the teat cups 9 and attach them to the teats of the cow 4 in the milking stall 3. The gripping area A2 is located between the front legs 4a and the rear legs 4b of the cow 4. The gripping area A2 also has a center position in a transverse direction of the milking stall 3. Thus, the center vertical plane 3a also extends centrally through the gripping area A2. Each teat cup carrier 8 is connected to a rod element 10 provided with a roller 10a at an end portion . The roller 10a is in contact with a control surface of a rail element 1 1 . The rail element 1 1 is mounted i n a fixed position on the i nside of the inner edge portion 1 a of the platform 1 . A not visi ble spring member or the like may act on the rod element 10 such that the roller 10a is held in continuous contact with the control surface of the rail element 1 1 . Each teat cup carrier 8 is movably arranged between the storing area A and the gripping area A2 by means of this mechanical transmission when the platform 1 rotates.
A robot arm 1 3 is adapted to fetch the teat cups 9 i n the teat cup carrier 8 and attach them to the teats of the cow 4. The teat cups 9 are held in parking positions in the teat cup carrier 8 along a curved path . The robot arm 13 comprises four gripping members 13a. Each gripping member 13a is arranged to grip one of the teat cups 9 in the teat cup carrier 8. The gripping members 13a are arranged on the robot arm along a corresponding curved path as the teat cups 9 in the teat cup carrier 8. Such an arrangement of the gripping members 13a makes it possible to grip the teat cups 9 simultaneously i n the teat cup carrier 8. A camera 13b is arranged on the robot arm 13 in the vicinity of the gripping members 13a.
Fig . 2 shows the robot arm 13 from the side. I n this case, the robot arm 1 3 comprises a first positioning element 13c arranged to adjust the position of the gripping members 13a in a vertical direction , a second positioning element 13d arranged to adjust the position of the gripping member 13a along a straight line path in a horizontal plane, and a third positioning element 13e arranged to adjust the position of the gripping member 13a in a horizontal plane by means of a pivoting motion . Furthermore, the robot arm
13 comprises a body 13f and a suspension device 13g by which the robot arm 13 is suspended in an overhead rail member 12.
The rail member 12 has a curved extension su bstantially vertically above the radially outer edge portion 1 b of the 1 platform 1 . The suspension device 13g comprises rollers 13h or the like by which the robot arm 13 is movably arranged along the rail member 12.
Each teat cup carrier 8 is provided with a number of rolling members 8a making it possible for the teat cup carrier 8 to roll along the floor surface in the milking stall 3 between the stori ng area A and the gripping area A2. A tunnel-shaped device 14 is arranged in each milking stall 3. Each tunnel-shaped device 14 is arranged i n the vicinity of the front legs 4a of a cow 4 standing in a milking position in the milking stall 3. Each tunnel-shaped device
14 has a center position in the transverse direction of the milking stall 3. Thus, the center vertical plane 3a in the milking stall extends through the tunnel-shaped device 14. The tunnel-shaped devices 14 have a design creating a free space between the front legs 4a of a cow 4. The tunnel-shaped device 14 is constructed by a strength casing . The tunnel-shaped device 14 has an opening at a first end 14a located in front of the front legs 4a of the cow 4. The tunnel-shaped device 14 also has an opening at a second end 14b located behind the front legs 4a of the cow 4. The tunnel- shaped device 14 has here a length such that it encloses the teat cup carrier 8 and the teat cups 9 when they are in the storing area
During operation of the rotary parlour, a cow 4 to be milked enters a milking stall 3 at a first rotation position p-|. The existence of the centrally positioned tunnel-shaped device 14 results in the cow 4 having to place the front legs 4a on opposite sides of the tunnel- shaped device 14 in the milking stall 3. The feeding trough 6 is adjusted to a position such that it moves the cow 4 to a predetermined milking position in the milking stall 3 in which an end portion of the cow 4 comes in contact with the rump rail 7. Thereby, the movably arranged feeding trough 6 defines the milking position of the cow 4 in the longitudinal direction of the milking stall 3.
The roller 10a of the rod element 10 rolls continuously in contact with the control surface of the rail element 11. When the milking stall 3 approaches the second rotary position p2, the control surface of the rail element 11 has a curved part displacing the rod element 10 and the teat cup carrier 8 along the center vertical plane 3a of the milking stall. The tunnel-shaped device 14 secures a free space between the front legs 4a of the cow 4 when the teat cup carrier 8 is displaced from the storing area A to the gripping area A2.
Initially, the robot arm 13 is located in a resting position radially outside the outer edge portion 1b of the platform 1. When a milking stall 3 enters the second rotary position p2, the first positioning element 13c of the robot arm 13 may be activated in order to adjust the position of the gripping member 13a to a suitable vertical level above the floor surface of the platform 1. The second positioning element 13d then moves the gripping members 10a along a straight line path through the space between the rear legs of the cow 4 and towards the teat cups 9 held by the teat cup carrier 8 in the gripping area A2. The camera 10b detects the positions of the teat cups 9. The above described arrangement of the four gripping devices 13a makes it possible to grip all teat cups 9 simultaneously. The third positioning element 13e may also be used to perform a pivoting motion of the gripping member 13a during the gripping motion of the teat cups 9 i n the teat cup carrier 8.
The robot arm 13 is then activated in a manner such that the gripping member 13a moves the teat cups 9 to a position below the udder of the cow 4. The camera 13b detects the positions of the teats of the cow 4 and the robot arm 13 attaches the teat cups 9 in proper order to teat of the cow 4. During the gripping and attachi ng process of the teat cup 9, the whole robot arm 13 can be moved as a unit along the curved rail member 1 1 with the same velocity as the platform 1 . Thereby, it is possible to avoid mutual motions between the robot arm 13 and the cow 4 on the rotary platform 1 . When all teat cups 9 have been attached to the teats of the cow 4, the robot arm 13 is retracted to the resti ng position outside the radial outer edge portion 13b of the platform 1 . I n this case, the robot arm 13 uses the space between the rear legs of the cow 4 for gripping the teat cups 9 in the gripping area A2. The gripping members 13a and the robot arm 13 may be given a relatively small cross section area . Thereby, the risk that the robot arm 1 3 comes in contact with the rear legs 4b of the cow 4 when it moves through the space between the rear legs 4b of the cow 4 is relatively small .
The milking process of the cow 4 starts when the milking stall 3 reaches the third rotation position p3. The teat cup carrier 8 is maintai ned i n the gripping area A2 during the whole milking process. The teat cup carrier 8 is located relatively close to the teats of the cow 4 in the gripping area A2. Such a positioning of the teat cup carrier 8 results in a short pull out length of the milk tubes and the pulse tubes of the teat cups 9 when they are attached to the teats of the cow 4. Thereby, the risk that the tu bes become entangled with each other duri ng the milking process and a following removing process is relatively low. As soon as the milking process of the cow 4 has been fi nished , a schematically disclosed removing device 15 is activated . The removing device 15 is here placed on the floor surface in a front portion of the milking stall 3 in the vicinity of the inner edge portion 1 a of the platform 1 . I n this case, the milk tubes are arranged at a relatively low constant level above the floor surface. Such an arrangement of the milk tubes results in a uniform milk flow from the teat cups 9, via the milk tubes, to a not visi ble milk contai ner. It is of course possible to arrange the removi ng device 15 in other positions on the platform 1 .
The removing device 15 provides individual pulling forces in the respective milk tubes and the pulse tubes when the milk flow to the respective teats cups 9 ceases. The pulling force in the milk tubes removes the teat cups 9 from the teats of the cow 4 and pulls them back to a parking position i n the teat cup carrier 8. When all teat cups have been retracted to the parking position i n the teat cup carrier 8, the teat cup carrier 8 is displaced back to the stori ng area A inside the tunnel-shaped device 14 by means of the control surface of the rail element 1 1 and the rod element 10. Thereafter, the milking stall 3 reaches the final rotary position and the cow 4 leaves the milking stall 3. Fig . 3 shows an alternative embodiment comprising a movably arranged additional rail element 1 1 a. The additional rail element 1 1 a is movably arranged between a resting position which may be at a higher level than the level of the ordinary rail element 1 1 and an active position in front of a part of the ordinary rail element 1 1 . A schematically shown manual control unit 20 of the additional rail element is arranged outside the outer edge portion 1 b of the platform 1 . The manual control unit 20 is arranged to be used by an operator standing on the outside of the platform 1 . In this case, the manual control unit 20 comprises a first button 20a for positioning the additional rail element 1 1 a in the resting position and a second button 20b for positioning the additional rail element 1 1 a i n the active position . The manual control unit 20 is connected to a schematically disclosed lifting mechanism 21 , able to move the additional rail element 1 1 a in a vertical direction between the resting position and the active position . Alternatively, an operator may directly grip the additional rail element 1 1 a and move it between said positions. Accordi ng to a further alternative, a simple mechanical mechanism may be used for movi ng the additional rail element 1 1 a between said positions. During periods when the robot arm 13 is i noperative, or it is for other reasons decided to manually attach the teat cups, an operator pushes down the second button 20b of the control unit 20. Thereby, the additional rail element 1 1 a is moved down from the resting position to the active position in front of the ordi nary rail element 1 1 with respect to the position of the roller 1 0a. The roller 10a of the rod element 10 rolls in contact with the ordinary rail element 1 1 i n the first rotary position p of the milking stall 3. The roller 10a rolls over from the ordinary rail element 1 1 to the additional rail element 1 1 a when the milking stall 3 approaches the second rotary position p2. The additional rail element 1 1 a has a control surface with a shape such that it displaces the rod element 10 and the teat cup carrier 8 along the center vertical plane 3a of the milking stall through the tunnel-shaped device 14 and to a manual gripping area A3. The manual gripping area A3 is located closer to the outer edge portion 1 b of the platform 1 than the ordi nary gripping area A2. It is in this case easy for an operator to grip the teat cups i n the teat cup carrier 8 and attach them to the teats of the cow 4 in the milking stall 3. Thereafter, the additional rail element 1 1 a has a shape such that it displaces the rod element 10 and the teat cup carrier 8 along the center vertical plane 3a of the milking stall 3 from the manual gripping area A3 to the ordi nary gripping area A2. The roller 10a rolls back from the additional rail element 1 1 a to the ordi nary rail element 1 1 when the milking stall 3 approaches the second rotary position p3. The teat cup carrier 8 is maintained i n the gripping area A2 during the whole milking process. As soon as the milking process of the cow 4 has finished , the teat cups 9 are removed from the cow 4. When all teat cups 8 have been retracted to their parking positions in the teat cup carrier 8, the teat cup carrier 8 is displaced back to the stori ng area A inside the tunnel-shaped device 14 by means of the control surface of the rail element 1 1 and the rod element 10. The milking stall 3 reaches the final rotary position and the cow 4 leaves the milking stall 3. It is of course possible to instead maintain the teat cup carrier 8 in the manual gripping area A3 during the milking process.
It is also possi ble to use a stationary additional rail element for moving the teat cup carrier 8 to the manual gripping area A3. In this case, a rail switching mechanism may be used which in a first position guides the roller 10a to the ordinary rail element 1 1 and in a second position guides the roller 10a to the alternative rail element. An operator may set the rail switching mechanism i n a selected one of these positions by means of a simple mechanical mechanism or a control unit.
Fig . 4 shows a further alternative embodiment of the invention. In this case, a teat cup carrier 8 is moved between a storing area A and a gripping area A2 by means of an extensible power member 16. The extensible power members 16 may be hydraulic or pneumatic cylinders. A control unit 1 7 is used to control the activation of the power members 16. An uneven surface is arranged between the front legs 4a of the cows 4 in the respective milking stalls 3. I n this case, the uneven surface is formed by a number of elongated ri b elements 18 arranged i n parallel at a distance from each other. Thereby, the uneven surface comprises an upper surface portion defined by the ri b elements 18 and a lower surface defined by the ordinary floor surface in the milking stalls 3. Each uneven surface has a center position i n the transverse direction of the milking stalls 3. Thus, the center vertical planes 3a i n the milking stalls 3 extend through the uneven surfaces. Cows 4 do not like to stand on uneven surfaces. Thereby, the uneven surfaces create free spaces between the front legs 4a of the cows 4 i n the milking stalls 3. A guiding track 19 is arranged on the floor surface in each milking stall 3. Alternatively, the guiding track 19 may be formed i n a depression in the floor surface or on a level above the floor surface i n the milking stalls 3. The guiding tracks 19 define the direction of motion of the teat cup carriers 8 when they are moved between the storing area A and the gripping area A2 in the milking stalls 3. Each guiding track 19 extends centrally through the uneven surface i n the milking stall 3 in a space between two adjacent rib elements 18.
During operation of the rotary parlour, a cow 4 to be milked enters a milking stall 3 at a first rotation position p-| . When the cow 4 enters the milking stall 4, the teat cup carrier 8 is in the stori ng area A in the vicinity of the inner edge portion 1 a of the platform 1 . Since the teat cup carrier 8 is in this position of the milking stall 3 there is no risk that the cow comes in contact with or stamps on the teat cup carrier 8 and the teat cups 9. The feeding trough 6 moves the cow 4 to the predetermined milking position i n the milking stall 3 in which the end portion of the cow 4 is in contact with the rump rail 7. The cow 4 puts the front legs 4a on opposite sides of the uneven surface defi ned by the ri b elements 18 such that a free space is created between the front legs 4a of the cow 4.
When the milking stall 3 approaches the second rotary position p2, the control unit 1 7 activates the power member 16 such that it displaces the teat cup carrier 8 in a longitudinal direction in the milking stall 3 along the guiding rail 19. The power member 16 displaces the teat cup carrier 8 from the stori ng area A to the gripping area A2 via the free space between the front legs 4a of the cow 4. The control unit 1 7 activates the robot arm 13 when the milking stall 3 enters the second rotary position p2. The robot arm 13 moves the gripping member 13a towards the teat cups 9 i n the teat cup carrier 8 via the space between the rear legs 4b of the cow 4. The gripping device 13a grips all teat cups 9 simultaneously and moves them to a position below the udder of the cow 4 and attaches them in proper order to the teats of the cow 4. The robot arm 13 is then retracted to the resting position outside the radial outer edge portion 13b of the platform 1 .
The control unit 1 7 maintains the teat cup carrier 8 in the gripping area A2 during the whole milking process. As soon as the milking process of the cow 4 has finished , a non-shown removing device removes the teat cup 9 from the teats and pulls them back to a respective parking position i n the teat cup carrier 8. Before the milking stall reaches a final rotary position where the cow 4 leaves the milking stall 3, the control unit 1 7 activates the power member 16 such that it moves the teat cup carrier 8 back to storing area A-| . Since the storing area A is close to the inner edge portion 1 a of the platform there is no risk that the cow 4 comes in contact with or steps on the teat cup carrier 8 and the teat cups 9 when the cow leaves the milking stall 3. It is also possi ble to use the extensible power member 16 for moving the teat cup carrier 8 to a manual gripping area A3. It is also possible to use the one of the above mentioned positioning mechanisms for movi ng the teat cup carrier to a service area on the platform. The teat cup carrier 8 may be moved to the service area during occasions when the platform 1 is free from cows 4. Such a service area may be located close to the outer edge portion 1 b of the platform such that the teat cups 9 are easy reachable for an operator standing on the outside the platform 1 . In this case, the teat cups 9 may be placed on a cleaning device for performing a cleaning process of the milking system .
The invention is not limited to the described embodiments but may be varied and modified freely within the scope of the claims. The milking parlour is not necessarily a rotary milking parlour, but may be any type of milking parlour, incl uding a so called milking robot (AMS). An operator or a robot arm of any ki nd may be used for attachi ng the teat cups to the teats of the cow. The teat cups can be gripped and attached by the gripper individually, in pairs, or all four at once. The space-creating devices may take other forms than the ones described here. It is further not necessary for the platform to comprise fencing between the stalls, feeding troughs and/or rump rails.

Claims

Claims
1 . A milking parlour for animals comprising :
at least one milking stall (3) arranged to receive an animal in a predetermined milking position ,
teat cups (9) arranged to be used in the milking stall (3), a teat cup carrier (8) arranged to store the teat cups (9) in the milking stall (3) when they are not used , and
at least one robot arm (1 3), provided with at least one gripping member (13a) arranged to grip a teat cup (9) in the teat cup carrier (8) and attach it on the teat of an animal (4) in the milking stall (3),
characterized in that the teat cup carrier (8) stores the teat cups (9) in a storing area (A-i ) located at least partly in front of the front legs (4a) of the animal (4) with respect to the direction of the animal (4) when it stands in the predetermined milking position in the milking stall (3).
2. A milking parlour according to claim 1 , characterized in that the teat cup carrier (8) stores the teat cups in a storing area (A^ located su bstantially at a center vertical plane (3a) in a longitudinal direction of the milking stall (3).
3. A milking parlour according to any one of the preceding claims, characterized in that teat cup carrier (8) stores the teat cups (9) in a storing area (A-i ) located on or vertically above a floor surface in the milking stall (3).
4. A milking parlour according to any one of the preceding claims, characterized in that the milking parlour comprises a space- creating device (14) havi ng a design creating a free space between the front legs (4b) of an animal when it stands in a milking position in the milking stall (3).
5. A milking parlour according to claim 4, characterized in that the space-creati ng device comprises a tunnel-shaped device (14) which opens at least at an end (14b) located behind the front legs (4a) of the animal (4).
6. A milking parlour according to claim 4, characterized in that the space-creati ng device comprises an uneven surface (18) arranged between the front legs (4a) of an animal (4) standing i n a milking position in the milking stall (3).
7. A milking parlour according to any one of the preceding claims, characterized i n that said at least one robot arm (13) is arranged to simultaneously carry at least two teat cups (9).
8. A milking parlour according to any one of the preceding claims, characterized i n that said at least one robot arm (13) is arranged to move the gripping member (1 3a) through the space between the rear legs (4b) of the animal (4) when it is to grip a teat cup (9) i n the teat cup carrier (8) and attach it to a teat of the animal (4).
9. A milking parlour according to any one of the preceding claims, characterized i n that the teat cup carrier comprises at least one rolling member (8a) allowing the teat cup carrier (8) to roll along a floor surface in the milking stall (3) between the stori ng area (A-i ) and the gripping area (A2).
10. A milking parlour according to any one of the preceding claims, characterized in that the milking parlour comprises a first positioning means arranged to move the teat cup carrier (8) from the storing area (A^ to a gripping area (A2) when the teat cups (9) are to be attached to the teats of the animal (4).
1 1 . A milking parlour according to claim 10, characterized i n that said gripping area (A2) is at least partly located between the front legs (4a) and the rear legs (4b) of the animal (4) when it stands in the predetermined milking position in the milking stall (3).
12. A milking parlour according to claim 10 or 1 1 , characterized in that said first positioning means is arranged to displace the teat cup carrier (8) between the storing area (A-i ) and the gripping area (A2) along a rectilinear path .
13. A milking parlour according to any one of claims 10- 12 , characterized in that said first positioning means comprises a power member (16) connected to the teat cup carrier (8) and a control unit (1 7) arranged to control the power member (16) such that it moves the teat cup carrier (8) between the storing area (A-i ) and the gripping area (A2) at predetermined occasions.
14. A milking parlour according to any one of the preceding claims, characterized i n that the milking parlour comprises a second positioning means (1 1 a) arranged to move the teat cup carrier (8) from the storing area (A-i ) to a manual gripping area (A3) when the teat cups (9) are to be manually attached to the teats of the animal (4).
15. A milking parlour according to any one of the preceding claims, characterized i n that the milking parlour comprises a parallel rotary platform ( 1 ).
16. A milking parlour according to claims 12 and 15, characterized in. that said first positioning means comprises a stationary rail element (1 1 ) arranged radially inside the platform havi ng a control surface defi ning the position of the teat cup carrier (8) and a transmission mechanism (10, 10a) arranged to transmit motions from the control surface of the rail element (1 1 ) to the teat cup carrier (8).
EP11794873.7A 2010-11-23 2011-11-16 A milking parlour for animals Active EP2642846B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US41635710P 2010-11-23 2010-11-23
SE1051222 2010-11-23
PCT/SE2011/051377 WO2012070999A1 (en) 2010-11-23 2011-11-16 A milking parlour for animals

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EP2642846A1 true EP2642846A1 (en) 2013-10-02
EP2642846B1 EP2642846B1 (en) 2018-06-20

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US (1) US9480237B2 (en)
EP (1) EP2642846B1 (en)
CN (1) CN103209585B (en)
AU (1) AU2011332330B2 (en)
CA (1) CA2817901A1 (en)
NZ (1) NZ609796A (en)
RU (1) RU2013128484A (en)
WO (1) WO2012070999A1 (en)

Families Citing this family (18)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU2525257C2 (en) * 2009-04-01 2014-08-10 Делаваль Холдинг Аб Device for automatic washing teat cups of rotary milking platform
US8800487B2 (en) 2010-08-31 2014-08-12 Technologies Holdings Corp. System and method for controlling the position of a robot carriage based on the position of a milking stall of an adjacent rotary milking platform
WO2012123944A1 (en) * 2011-03-17 2012-09-20 Mirobot Ltd. Human assisted milking robot and method
NL2010406C2 (en) * 2013-03-07 2014-09-10 Rotec Engineering B V GRIPER FOR APPLYING MILK CUPLES TO ANIMAL TO BE MILKED, ROBOT ARM AND MILK MACHINE PROVIDED THEREOF, AND METHOD FOR THIS.
NL2010470C2 (en) * 2013-03-18 2014-09-24 Lely Patent Nv Method of and arrangement for managing a group of dairy animals.
US9497926B2 (en) * 2014-03-17 2016-11-22 Afimilk Agricultural Cooperative Ltd. System and method for treating livestock
NZ728043A (en) * 2014-08-21 2022-04-29 Delaval Holding Ab Method and arrangement for performing teat related operations in a rotary milking system and rotary milking system
US11019801B2 (en) 2015-09-21 2021-06-01 Afimilk Agricultural Cooperative Ltd. Multiple cell voluntary milking method and system, comprising a mobile milking robot having a minimal footprint
US11006613B2 (en) * 2015-09-21 2021-05-18 Afimilk Agricultural Cooperative Ltd. Mobile milking robot with minimal footprint
US20180317444A1 (en) * 2015-09-21 2018-11-08 Afimilk Agricultural Cooperative Ltd. Mobile milking robot with minimal footprint configured to operate in a parallel milking parlor
CN105941165B (en) * 2016-06-22 2019-10-01 中国农业科学院农业信息研究所 A kind of intelligence milking system
IL246617B2 (en) * 2016-07-05 2023-10-01 Eyal Brayer Means and Methods for Free Dome Range
US10349614B2 (en) * 2016-08-17 2019-07-16 Technologies Holdings Corp. Vision system for teat detection
SE541918C2 (en) * 2018-04-19 2020-01-07 Delaval Holding Ab A milking arrangement
CA3118054A1 (en) * 2018-11-01 2020-05-07 Delaval Holding Ab Tool-positioning system and method, rotary milking platform, computer program and non-volatile data carrier
CN112544448A (en) * 2020-12-02 2021-03-26 安徽科技学院 Automatic milking equipment
EP4199708A4 (en) * 2020-12-03 2024-10-09 Waikato Milking Systems Lp Means for milking animals
US11064674B1 (en) * 2021-02-19 2021-07-20 Le Groupe Rovibec Inc. Automatic cow milking device

Family Cites Families (29)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU954066A1 (en) 1980-02-20 1982-08-30 Челябинский Институт Механизации И Электрификации Сельского Хозяйства Apparatus for removing milking sleeves from udder teats
SU1158119A2 (en) 1983-12-26 1985-05-30 Fomin Leonid U Live stock barn
NL8802332A (en) * 1988-09-21 1990-04-17 Lely Nv C Van Der APPARATUS FOR MILKING AN ANIMAL.
GB8900084D0 (en) * 1989-01-04 1989-03-01 British Res Agricult Eng Milking
SU1777728A1 (en) * 1990-07-12 1992-11-30 Inst Mash Im A A Blagonravova Automated milking plant
NL9200419A (en) 1992-03-06 1993-10-01 Lely Nv C Van Der DEVICE FOR MILKING ANIMALS.
NL9200418A (en) 1992-03-06 1993-10-01 Lely Nv C Van Der DEVICE FOR MILKING ANIMALS.
US5697324A (en) * 1993-06-25 1997-12-16 Van Der Lely; Cornelis Apparatus for automatically milking animals, such as cows
NL9300578A (en) * 1993-04-01 1994-11-01 Texas Industries Inc Device for automatic milking of animals.
SE503492C2 (en) * 1994-10-12 1996-06-24 Tetra Laval Holdings & Finance Milking plant with a first and a second milking unit
NL9401681A (en) * 1994-10-12 1996-05-01 Maasland Nv Method and device for the automatic milking of animals, such as cows.
US6050219A (en) * 1996-04-04 2000-04-18 Van Der Lely; Cornelis Apparatus for milking animals
US6148766A (en) * 1996-12-17 2000-11-21 Van Der Lely; Cornelis Construction including an implement for automatically milking animals
NL1006607C2 (en) * 1997-07-17 1999-01-19 Maasland Nv Construction with a device for automatic milking of animals.
NL1009711C2 (en) * 1998-07-22 2000-01-25 Prolion Bv Device and method for automatic milking of animals.
SE9802614D0 (en) * 1998-07-24 1998-07-24 Alfa Laval Agri Ab An apparatus for milking an animal
NL1016195C2 (en) * 2000-09-15 2002-03-18 Lely Entpr Ag Device for automatic milking of animals.
NL1019117C2 (en) * 2001-10-05 2003-04-09 Lely Entpr Ag Device and method for performing an animal-related treatment on an animal.
NL1023791C2 (en) * 2003-07-01 2005-01-04 Lely Entpr Ag Milking installation.
SE0401513D0 (en) 2004-06-14 2004-06-14 Delaval Holding Ab Rotary parlor with delivery lines
SE0500043D0 (en) * 2005-01-10 2005-01-10 Delaval Holding Ab A milking arrangement
SE531033C2 (en) 2007-02-28 2008-11-25 Delaval Holding Ab A rotating stable for automatic milking of animals
EP3516955B1 (en) 2007-03-23 2020-10-14 DeLaval Holding AB A rotary parlour for automatic milking of animals
EP2131647B1 (en) * 2007-04-03 2012-10-17 DeLaval Holding AB Method for collecting milk in a milk tank, milking system and computer program products
EP2060173B1 (en) 2007-11-16 2014-09-24 DeLaval Holding AB A milking parlour and method for operating the same
EP2060171B1 (en) * 2007-11-16 2012-01-18 DeLaval Holding AB A milking parlour and method for operating the same
NL1035763C2 (en) 2008-07-28 2010-01-29 Lely Patent Nv Automatic milking installation.
WO2010052156A1 (en) * 2008-11-07 2010-05-14 Delaval Holding Ab A rotary parlour for milking of animals
NZ597815A (en) * 2009-08-26 2013-05-31 Delaval Holding Ab Milking robot arm with an imaging means which can tilt to image both hind legs and teats

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO2012070999A1 *

Also Published As

Publication number Publication date
EP2642846B1 (en) 2018-06-20
CN103209585A (en) 2013-07-17
CN103209585B (en) 2015-11-25
AU2011332330A1 (en) 2013-05-23
WO2012070999A1 (en) 2012-05-31
US9480237B2 (en) 2016-11-01
NZ609796A (en) 2014-11-28
AU2011332330B2 (en) 2014-10-09
RU2013128484A (en) 2014-12-27
US20130239897A1 (en) 2013-09-19
CA2817901A1 (en) 2012-05-31

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